📄 2410lib.c
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/*********************************************************************************************
* File name : 2410lib.c
* Author : embest
* Descript : s3c2410 function library
* History
* R.X.Huang, Programming modify, March 12, 2005
*********************************************************************************************/
/*------------------------------------------------------------------------------------------*/
/* include files */
/*------------------------------------------------------------------------------------------*/
#include <stdarg.h>
#include <string.h>
#include <stdio.h>
#include <ctype.h>
#include <stdlib.h>
#include "2410lib.h"
#include "2410slib.h"
/*------------------------------------------------------------------------------------------*/
/* global variable */
/*------------------------------------------------------------------------------------------*/
//static int delayLoopCount = 400;
static int delayLoopCount = FCLK/10000/10; // the default count value for delay
unsigned int f_nWhichUart=0; // UARTx
char Image$$RW_ZI$$ZI$$Limit[];
//extern char Image_RW_Limit[];
//void (*run)(void)=(void (*)(void))DOWNLOAD_ADDRESS;
/*********************************************************************************************
* name: port_init
* func: initialize io port for Embest teach kit ii
* para: none
* ret: none
* modify: R.X.Huang, March 12, 2005, modify the port setting dedicate for Embest Arm Edu Kit
* comment:
*********************************************************************************************/
void port_init(void)
{
//CAUTION:Follow the configuration order for setting the ports.
// 1) setting control register (GPnCON)
// * (bitn) -- means this pin not use on circuit, and set as default function
// 2) configure pull-up resistor (GPnUP)
// 3) setting value (GPnDAT)
//32bit data bus configuration
//=== PORT A GROUP
//Ports : GPA22 GPA21 GPA20 GPA19 GPA18 GPA17 GPA16 GPA15 GPA14 GPA13 GPA12
//Signal : nFCE GPA21 nFRE nFWE ALE CLE GPA16 nGCS4 nGCS3 nGCS2 nGCS1
//Setting: nFCE Output nFRE nFWE ALE CLE Output nGCS4 nGCS3 nGCS2 nGCS1
//Binary : 1 *0 1, 1 1 1 *0, 1 1 1 1
//----------------------------------------------------------------------------------------
//Ports : GPA11 GPA10 GPA9 GPA8 GPA7 GPA6 GPA5 GPA4 GPA3 GPA2 GPA1 GPA0
//Signal : GPA11 ADDR25 ADDR24 ADDR23 ADDR22 ADDR21 ADDR20 ADDR19 ADDR18 ADDR17 ADDR16 ADDR0
//Binary : *0 1 1 1, 1 1 1 1, 1 1 1 1
rGPACON = 0x5ef7ff;
//===* PORT B GROUP
//Ports : GPB10 GPB9 GPB8 GPB7 GPB6 GPB5 GPB4 GPB3 GPB2 GPB1 GPB0
//Signal : GPB10 GPB9 GPB8 GPB7 GPB6 DIS_OFF L3CLOCK L3DATA L3MODE PWM2 PWM1
//Setting: Output Output Output Output Output Output Output Output Output TOUT1 TOUT0
//Binary : 01, 01 *01, *01 *01, 01 01, 01 01, 10 10
rGPBCON = 0x155559;
rGPBUP = 0x7ff; // The pull up function is disabled GPB[10:0]
//=== PORT C GROUP
//Ports : GPC15 GPC14 GPC13 GPC12 GPC11 GPC10 GPC9 GPC8 GPC7 GPC6 GPC5 GPC4 GPC3 GPC2 GPC1 GPC0
//Signal : VD7 VD6 VD5 VD4 VD3 VD2 VD1 VD0 Output Output Output OUT VFRAME VLINE VCLK LEND
//Binary : 10 10, 10 10, 10 10, 10 10, *01 *01, *01 01, 10 10, 10 10
rGPCCON = 0xaaaa55aa;
rGPCUP = 0xffff; // The pull up function is disabled GPC[15:0]
//=== PORT D GROUP
//Ports : GPD15 GPD14 GPD13 GPD12 GPD11 GPD10 GPD9 GPD8 GPD7 GPD6 GPD5 GPD4 GPD3 GPD2 GPD1 GPD0
//Signal : VD23 VD22 VD21 VD20 VD19 VD18 VD17 VD16 VD15 VD14 VD13 VD12 VD11 VD10 VD9 VD8
//Binary : 10 10, 10 10, 10 10, 10 10, 10 10, 10 10, 10 10, 10 10
rGPDCON = 0xaaaaaaaa;
rGPDUP = 0xffff; // The pull up function is disabled GPD[15:0]
//=== PORT E GROUP
//Ports : GPE15 GPE14 GPE13 GPE12 GPE11 GPE10 GPE9 GPE8 GPE7 GPE6 GPE5 GPE4
//Signal : IICSDA IICSCL SPICLK SPIMOSI SPIMISO SDDATA3 SDDATA2 SDDATA1 SDDATA0 SDCMD SDCLK I2SSDO
//Binary : 10 10, 10 10, 10 10, 10 10, 10 10, 10 10,
//----------------------------------------------------------------------------------------
//Ports : GPE3 GPE2 GPE1 GPE0
//Signal : I2SSDI CDCLK I2SSCLK I2SLRCK
//Binary : 10 10, 10 10
rGPECON = 0xa6aaaaaa;
rGPEUP = 0xffff; // The pull up function is disabled GPE[15:0]
rGPEDAT = 0x2000;
//=== PORT F GROUP
//Ports : GPF7 GPF6 GPF5 GPF4 GPF3 GPF2 GPF1 GPF0
//Signal : LED_4 LED_3 LED_2 LED_1 PS2_INT CPLD_INT1 KEY_INT BUT_INT1
//Setting: Output Output Output Output EINT3 EINT2 EINT1 EINT0
//Binary : 01 01, 01 01, 10 10, 10 10
rGPFCON = 0x55aa;
rGPFUP = 0xff; // The pull up function is disabled GPF[7:0]
//=== PORT G GROUP
//Ports : GPG15 GPG14 GPG13 GPG12 GPG11 GPG10 GPG9 GPG8 GPG7 GPG6
//Signal : nYPON YMON nXPON XMON GPG11 SD_CD CPLD_INT3 CPLD_INT2 SPICLK1 SPIMOSI
//Setting: nYPON YMON nXPON XMON Output Iutput EINT17 EINT17 SPICLK1 SPIMOSI1
//Binary : 11 11, 11 11, 01 00, 10 10, 11 11
//---------------------------------------------------------------------------------------
//Ports : GPG5 GPG4 GPG3 GPG2 GPG1 GPG0
//Signal : SPIMISO1 LCD_PWREN BUT_INT2 nSS0 NET_INT GPG0
//Setting: SPIMISO1 LCD_PWRDN EINT11 nSS0 EINT9 Output
//Binary : 11 11, 10 11, 10 *01
rGPGCON = 0xff4af7b9;
rGPGUP = 0xffff; // The pull up function is disabled GPG[15:0]
//rGPGCON = (rGPGCON & 0xfffffcff) | (1<<8); // GPG4 [9:8] 11 -> LCD_PWREN Enable
// Eable LCD
// rGPGDAT = (rGPGDAT & 0xffef) | (1<<4);
// close LCD
rGPGDAT = rGPGDAT & 0xffcf;
//=== PORT H GROUP
//Ports : GPH10 GPH9 GPH8 GPH7 GPH6 GPH5 GPH4 GPH3 GPH2 GPH1 GPH0
//Signal : GPH10 CLKOUT0 SD_WP CTS1 RTS1 RXD1 TXD1 RXD0 TXD0 nRTS0 nCTS0
//Setting: Output CLKOUT0 GPH8 nCTS1 nRTS1 RXD1 TXD1 RXD0 TXD0 nRTS0 nCTS0
//Binary : 10, 10 10, 11 11, 10 10, 10 10, 10 10
rGPHCON = 0x2aaaaa;
rGPHUP = 0x7ff; // The pull up function is disabled GPH[10:0]
}
/*********************************************************************************************
* name: uart_change_baud
* func: Change uart baud rate
* para: nChannel -- input, UART0, UART1 or UART2
* nBaud -- input, baud rate
* ret: none
* modify:
* comment:
*********************************************************************************************/
void uart_change_baud(int nChannel, int nBaud)
{
if (nChannel == UART0)
rUBRDIV0=( (int)(PCLK/16./nBaud + 0.5) -1 );
if (nChannel == UART1)
rUBRDIV1=( (int)(PCLK/16./nBaud) -1 );
if (nChannel == UART2)
rUBRDIV2=( (int)(PCLK/16./nBaud) -1 );
}
/*********************************************************************************************
* name: uart_init
* func: initialize uart channel
* para: nMainClk -- input, the MCLK value of current system
* nBaud -- input, baud rate value for UARTx
* nChannel -- input, UART0, UART1 or UART2
* ret: none
* modify:
* comment:
*********************************************************************************************/
void uart_init(int nMainClk, int nBaud, int nChannel)
{
int i;
if(nMainClk == 0)
nMainClk = PCLK;
switch (nChannel)
{
case UART0:
rUFCON0 = 0x0; //UART channel 0 FIFO control register, FIFO disable
rUMCON0 = 0x0; //UART chaneel 0 MODEM control register, AFC disable
rULCON0 = 0x3; //Line control register : Normal,No parity,1 stop,8 bits
// [10] [9] [8] [7] [6] [5] [4] [3:2] [1:0]
// Clock Sel, Tx Int, Rx Int, Rx Time Out, Rx err, Loop-back, Send break, Transmit Mode, Receive Mode
// 0 1 0, 0 1 0 0, 01 01
// PCLK Level Pulse Disable Generate Normal Normal Interrupt or Polling
rUCON0 = 0x245; // Control register
// rUBRDIV0=( (int)(nMainClk/16./nBaud) -1 ); // Baud rate divisior register 0
rUBRDIV0=( (int)(nMainClk/16./nBaud+0.5) -1 ); // Baud rate divisior register 0
break;
case UART1:
rUFCON1 = 0x0; //UART channel 1 FIFO control register, FIFO disable
rUMCON1 = 0x0; //UART chaneel 1 MODEM control register, AFC disable
rULCON1 = 0x3;
rUCON1 = 0x245;
rUBRDIV1=( (int)(nMainClk/16./nBaud) -1 );
break;
case UART2:
rULCON2 = 0x3;
rUCON2 = 0x245;
rUBRDIV2=( (int)(nMainClk/16./nBaud) -1 );
rUFCON2 = 0x0; //UART channel 2 FIFO control register, FIFO disable
break;
default:
break;
}
for(i=0;i<100;i++);
delay(400);
}
/*********************************************************************************************
* name: uart_select
* func: change uart channel
* para: nChannel -- input, UART0, UART1 or UART2
* ret: none
* modify:
* comment:
*********************************************************************************************/
void uart_select(int nChannel)
{
f_nWhichUart=nChannel;
}
/*********************************************************************************************
* name: uart_txempty
* func: Empty uart channel
* para: nChannel -- input, UART0, UART1 or UART2
* ret: none
* modify:
* comment:
*********************************************************************************************/
void uart_txempty(int nChannel)
{
if(nChannel==0)
while(!(rUTRSTAT0 & 0x4)); //Wait until tx shifter is empty.
else if(nChannel==1)
while(!(rUTRSTAT1 & 0x4)); //Wait until tx shifter is empty.
else if(nChannel==2)
while(!(rUTRSTAT2 & 0x4)); //Wait until tx shifter is empty.
}
/*********************************************************************************************
* name: uart_getch
* func: Get a character from the uart
* para: none
* ret: get a char from uart channel
* modify:
* comment:
*********************************************************************************************/
char uart_getch(void)
{
if(f_nWhichUart==0)
{
while(!(rUTRSTAT0 & 0x1)); //Receive data ready
return RdURXH0();
}
else if(f_nWhichUart==1)
{
while(!(rUTRSTAT1 & 0x1)); //Receive data ready
return RdURXH1();
}
else if(f_nWhichUart==2)
{
while(!(rUTRSTAT2 & 0x1)); //Receive data ready
return RdURXH2();
}
return NULL;
}
//====================================================================
char uart_getkey(void)
{
if(f_nWhichUart==0)
{
if(rUTRSTAT0 & 0x1) //Receive data ready
return RdURXH0();
else
return 0;
}
else if(f_nWhichUart==1)
{
if(rUTRSTAT1 & 0x1) //Receive data ready
return RdURXH1();
else
return 0;
}
else if(f_nWhichUart==2)
{
if(rUTRSTAT2 & 0x1) //Receive data ready
return RdURXH2();
else
return 0;
}
return NULL;
}
/*********************************************************************************************
* name: uart_getstring
* func: Get string from uart channel and store the result to input address (*pString)
* para: pString -- input, string
* ret: none
* modify:
* comment:
*********************************************************************************************/
void uart_getstring(char *pString)
{
char *string2 = pString;
char c;
while((c = uart_getch())!='\r')
{
if(c=='\b')
{
if( (int)string2 < (int)pString )
{
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